A separator for ultra-lightweight materials, it is now even capable of sorting plastic fractions made up of components differing only slightly in specific weight. Example applications include PET bottle recycling, in which the valuable PET fraction can be highly efficiently and cleanly separated from lightweight contaminants such as PE film or paper labels.
The regulations governing plastics products are increasingly requiring the use of larger proportions of recycled materials. Germany's Packaging Act specifies a material recycling rate of 58.5% for plastics packaging, a rate which is set to rise to 63% from 2022. While these requirements disregard economic factors, the oversupply of plastic scrap and the current, greatly-reduced prices for virgin plastics mean that the requirements on the quality, that is, purity, of the input available for recycling are increasing. As a result, greater attention has to be paid to the processing step upstream of recycling, namely sorting, if much greater quantities of material which can be put to renewed material use are ultimately also to be obtained from post-consumer waste.
Conventional over-conveyor extractors or other air classifiers, which for example are used in composting plants, are said to be well-suited to separating different weight fractions in waste streams. They cannot cope, however, when it comes to differentiating pre-sorted or similar lightweight components, according to Westeria.
This is where the AirLift comes in. It can also replace conventional air classifiers in existing installations where it can then for example separate plastics film from paper or different plastics from one another.
The complete AirLift system consists of three components. The SpeedCon high-speed conveyor belt feeds the material at up to 4 m/sec to the central element, the AirLift, while the AirWheel is finally arranged downstream of the AirLift.
Depending on model, possible working widths of the AirLift range between 1,000 mm and 3,500 mm, the widest being capable of handling throughputs of up to 320 m³/h with a grain size of 60 mm to 250 mm. Maximum outlet capacity is 5.6 t/h. Automatic gate controllers prevent material blockages on the input and the output sides and so ensure high operational reliability. Being continuously adjustable, such automatic gate control also ensures that the passage height can be exactly adjusted to the specific separation goal.
Downstream of the AirLift is the AirWheel, in which the lightweight fraction is removed from the air stream by means of a rotary screening drum. The residual dust-air mixture is fed into a dust filter.
The SpeedCon is angled downwards by 20° directly below the intake. As a result, the air stream can more easily get underneath the light parts. Angling the conveyor in this way imparts a ballistic trajectory to all the input stream components to be sorted. The integrated controller can adjust the trajectory's shape or throw distance via the belt speed and so tailor it precisely to the task in hand.
Westeria claims that levels of purity in excess of 95% are achievable, depending on the input material. For instance, an analysis of AirLift systems installed in the mixed plastics feed to an NIR (near infrared) sorter revealed that, for a working width of 2,800 mm, over 90% of the desired film fraction could be reliably separated. Eliminating the film, which is usually located on top, from mixed plastics facilitates NIR sorting and distinctly improves the sorting result.